DE19726742A1 - Method for producing an at least partially electrically conductive battery cover - Google Patents

Abstract

The manufacturing method involves using electrically conductive elements (7,8) over selected areas of the battery cover surface. The elements are electrically coupled to one another and to at least one charge dissipation terminal (9). The cover is formed from a non-conductive plastics in combination with the electrically conductive elements, provided by conductive metal coatings, applied metal foils, metal wires or a stamped out metal grid.

Description

The present invention relates to a method for producing a at least in some areas electrically conductive battery cover. About that In addition, a new type of battery cover is provided with the invention specified electrically conductive properties. It follows from the invention also a new type of battery with an electrically conductive one Accumulator cover, with the cover in the area of the cell interior is non-conductive.

In the case of accumulators, usually lead accumulators, detonating gas ignitions by electrostatic fields can occur as a result of the oxygen and hydrogen gases generated during charging, which collect in the cell space below the cover. Electrostatic fields can on the one hand directly on the surface of a z. B. existing polypropylene plastic cover by friction with a rag, on the other hand by potential fields and sparking on the cover are transferred. There is a need and meanwhile also a need to avoid such detonating gas ignitions by the possibility of derivation and by the establishment of a defined resistance. If you now choose a material for the cover that corresponds to a resistance of ≦ 10 ⁴ Ω × cm, no electrostatic fields are built up. However, between the two poles of a battery / cell according to Ohm's law, a current in the milliampere range at z. B. 12 volts, which would represent a constant discharge of the battery. Due to this discharge current (self-discharge of the battery), a lowest resistance of 10 ⁵ Ω × cm must be maintained. One could possibly insulate one of the battery poles from the plastic, but this creates additional costs. In addition, this cannot guarantee the avoidance of detonating gas.

Based on this prior art, the present invention Task based on a method for producing a Battery cover specify which is economical and simple Is feasible and the manufacture of an accumulator cover with electrically conductive properties, preferably in combination per se non-conductive plastics with electrically conductive elements is made possible.

The invention achieves the technical solution to this problem proposed a method for producing an accumulator cover, the cover spanning its surface at least in some areas is provided with electrically conductive elements, which are mutually connected and to at least one connection for deriving electrical Charge can be connected.

The method according to the invention is simple and economically applicable. It can also be integrated into existing manufacturing processes for Battery cover. In a simple way it becomes more conventional, from one made of non-conductive plastic battery cover provided electrically conductive elements.

The electrically conductive elements can be a complete Form coherent layer, for example using a Foil, an applied conductive varnish or the like can only areas cover the surfaces or according to a particularly advantageous one Proposal of the invention the surface of the grid-like or net-like Cover the battery cover.

In addition to foil, conductive varnish and the like, conventional conductor wires can also be used are used, preferably flat wires.  

The electrically conductive surface can be formed in that the surface of the battery is coated by applying a film, Conductive varnish coated, hot stamping processes are used and the like. Foil and varnish as well as electrical conductors can be web-shaped on Surface applied or placed in the provided recesses. Conductive varnish can also be used in printing processes, for example screen printing Surface to be applied.

According to a particularly advantageous proposal of the invention, the electrically conductive elements in the manufacture of the battery cover in Injection molding process wrapped. Advantageously, the Injection molding process to be a multi-component process, for example a component of a metallizable substance or a conductive Plastic, in a second injection molding step Accumulator cover is applied complementarily.

In all of the described process options, they are electrical conductive elements, a coherent network or coherent line area arranged and arranged with a Earth connection connected. It is quite possible that on one Accumulator cover formed several individual areas and each with one Earth connection.

Advantageously, one of the poles of the Accumulator used so that the electrically conductive elements must be connected to each other and finally to the pole. At the Applying the conductive lacquer, for example, the pole can also be partially coated. It is sufficient if between electrically conductive elements and the pole sleeve Contact is established. The pole can also be equipped with an additional pole ring be provided for contacting.

Provided the battery cover surfaces in different levels has, which is often the case when the battery cover in itself known manner made of an upper cover and a lower cover between which acid separation spaces are formed, wherein however, the pole planes are not covered with an upper cover, the  electrically conductive sheets or surfaces either over the edges drawn or in the different levels for themselves trained so that overlaps take place in the edge regions. In these overlapping edge areas can then be simple Vertical contacts are made, for example, by in corresponding Holes inserted into the holes, the holes then being sealed with caps be sealed by attaching pins and the like.

The methods described are ideal for simple Formation of electrically conductive accumulator surfaces. The Surface coating processes are extremely simple, but can damaged or insufficient connection to Ensure the plastic surface of the battery cover. they are nevertheless an economically simple solution to the problem according to the invention. The storage processes and multi-component processes fulfill the highest demands on stability, durability, scratch and Smudge resistance, acid resistance, captivity and the like. she usually require new manufacturing devices.

According to a particularly advantageous proposal of the invention Application of the two-component injection molding process instead of one too Metallizing plastic directly propylene with a larger amount of soot 13% are used. Multiple conductor track levels can be created here achieve, for example over three levels. The top cover and the bottom cover are directly weldable to each other, the ones in the top cover and in Bottom cover directly formed by soot traces lie on top of each other and can be contacted.

The invention produces a new type of battery cover, the According to the invention, at least in some areas, electrically conductive and is provided with a derivation unit. Through this new Accumulator covers are explosion hazards mentioned at the beginning completely avoided.

A provided with an accumulator cover according to the invention Accumulator is also new and versatile. In particular, it turns out  According to the invention, it is used in large quantities, for example in motor vehicles, as security enhancing.

Further advantages and features of the invention result from the following Description based on the figures. Show:

Figure 1 is a schematic representation of a portion of a battery cover with trained electrical conductors.

FIGS. 2a to 2c shows an embodiment of manufacturing steps for multi-component manufacturing and

FIGS. 3a to 3c, an alternative embodiment of FIG. 2.

In Fig. 1, a lid 1 of a lead accumulator is shown schematically, which in a manner known per se consists of a so-called lower lid 2 , on which webs, not shown, form cell-related chambers. Further webs 4 are used to form a retention labyrinth for battery acid. Finally, an access opening 5 to the respective cells is bordered by a further web arrangement - likewise not shown. The design of the accumulator housing or of the cover itself is of secondary importance for the present invention.

In a manner known per se, a battery pole 6 projects through the cover. At another point, another battery pole, not shown, projects through the cover. The formation, conducting and control of voltages enables conductive areas, which are also connected to one of the poles, preferably the negative pole. A grid is formed by the conductors 7 and 8 , the conductors being formed, for example, by printed conductive lacquer. In the transition area 9 from the upper cover to the lower cover area, which are at different levels, a bore is arranged in which an electrically connecting element, for example a spring, not shown, a contact pin or the like can be used. The web 8 in the lower lid is so long that it overlaps with the web 8 in the upper lid. If a contact element is inserted into the bore in area 9 , the tracks are connected to one another. The hole can then be covered by a plastic cap - not shown.

Fig. 2 and 3 show embodiments for the preparation of novel lids accumulators in multi-component injection molding process.

According to FIG. 2a, a plastic pre-molded part is produced in a first injection molding process, a so-called first shot. According to this exemplary embodiment, it is a non-metallizable plastic that has storage grooves. According to Fig. 2b, the pre-molded part is then produced in a second shot, which is a second component of a metallizable material or a conductive plastic, for. B. PP with a soot content greater than 13%. In the case of a metallizable material, the re-metallization then takes place in a third step.

In the alternative exemplary embodiment according to FIG. 3, the pre-molded part is produced from a metallizable material in FIG. 3a. In the second shot, the finished molded part is formed by embedding the first molded part in non-metallizable plastic. The metallization also takes place in the third step according to FIG. 3a, provided that the same conductive plastic is not used in the first step.

As material combinations, for example, can be specified as Metallizable materials ABS, PEI, LCP, PES, PA66 / 6, PA6, PA66 and appropriate materials. As non-metallizable materials come in different combinations with the mentioned metallizable Materials considered are PC, PE, PPS, PSF, PA11, PA12, POM and the like.

The metallization can be electroless or galvanic using Copper, nickel, gold, tin and the like are made.

With the above-mentioned methods, electrical can be easily produced Manufacture conductive accumulator covers.  

Reference list

1

cover

2nd

Lower cover

4th

web

5

Cell opening

6

pole

7

ladder

8th

ladder

9

Height transition

Claims (20)

1. A method of manufacturing a battery cover, the cover at least in areas spanning its surface with electrical is provided conductive elements which are interconnected and to at least one connection for discharging electrical charge be connected. 2. The method according to claim 1, characterized in that the Battery cover on its surface with an electrically conductive Layer is coated. 3. The method according to claim 1, characterized in that the Battery cover on its surface with tracks electrically conductive material is coated. 4. The method according to any one of the preceding claims, characterized characterized in that on the surface of the battery cover Wells are formed, in which electrically conductive material is inserted. 5. The method according to any one of the preceding claims, characterized characterized in that the electrically conductive material is metal foil is used. 6. The method according to any one of the preceding claims, characterized characterized in that conductor wire is used. 7. The method according to any one of the preceding claims, characterized characterized in that the electrically conductive material forms a grid the surface of the battery cover is arranged. 8. The method according to any one of the preceding claims, characterized characterized in that conductive paint is used as the electrically conductive material becomes.   9. The method according to any one of the preceding claims, characterized characterized in that the battery cover with electrically conductive Material is printed. 10. The method according to any one of the preceding claims, characterized characterized in that electrically conductive material in the manufacture of the Accumulator cover is stored by injection molding. 11. The method according to any one of the preceding claims, characterized characterized in that the battery cover in one Multi-component injection molding process is produced, one Component can be made electrically conductive. 12. The method according to claim 11, characterized in that one of the Components is a metallizable plastic. 13. The method according to any one of the preceding claims, characterized characterized in that the electrically conductive elements with a Earth connection. 14. The method according to claim 13, characterized in that as A battery terminal is used. 15. The method according to any one of the preceding claims, wherein the Accumulator cover surfaces in different levels has, characterized in that the conductive elements of the different levels, at least in the border area overlapping and vertically connected. 16. The method according to claim 15, characterized in that the vertical Connection using and inserting holes conductive elements is formed. 17. The method according to claim 16, characterized in that characterized in that the vertically conductive element is a spring element.   18. The method according to claim 16, characterized in that characterized in that the vertically conductive element is a pin. 19. Battery cover, produced by the method according to at least one of claims 1 to 18, characterized in that it at least in areas spanning its surface with electrical is provided conductive elements which are interconnected and at least in connection for the discharge of electrical charge are connected. 20. Accumulator, characterized by an accumulator cover Claim 19.